The adhesive is heated by resistors to melt, with a melting temperature of 70 degrees Celsius (158 degrees Fahrenheit). Beyond that point it becomes a liquid, but remains tacky. The tacky adhesive penetrates cracks and crevices, fixing the robot to the surface. But when allowed to cool it recedes, freeing the robot foot to take another step.

The resulting climber has tremendous potential for use in mountain or mining rescue operations, either carrying imaging and audio equipment to hunt for lost hikers, or transporting supplies to hikers in difficult to reach areas. Larger models with improved adhesives could eventually be used to haul down hikers off the cliff face, but even in its current form the bot has a lot of promise.

The robot could also see use hauling light materials in high rise construction, having been tested on wood, plastic, stone and aluminum.

Liyu Wang, one of the robot's designers, toldNew Scientist, "Our technology uses thermoplastic adhesives, which are much stronger than those used in gecko-type climbing systems. We are thinking about using this to climb cliffs or other complex natural environments, which no previous climbing technologies can handle."

A paper on the bot was published last month in the peer-reviewed journal IEEE Transactions on Robotics.

1. Proof of concept that it works2. The technology is there and available

Problems making it work for its purpose

1. Cost2. Still not mature enough

What is needed for it to work and have widespread adoption

1. More research and development2. Parts to manufacture are economical3. Someone to come along and absorb that R&D cost. That someone will not come along if it they don't see a profitable future.3b. Government funding